indoleacetic acid has been researched along with methyl jasmonate in 16 studies
| Timeframe | Studies, this research(%) | All Research% |
|---|---|---|
| pre-1990 | 0 (0.00) | 18.7374 |
| 1990's | 0 (0.00) | 18.2507 |
| 2000's | 4 (25.00) | 29.6817 |
| 2010's | 10 (62.50) | 24.3611 |
| 2020's | 2 (12.50) | 2.80 |
| Authors | Studies |
|---|---|
| Aerts, RJ; Baldwin, IT; Gäbler, R; Kahl, J; Kühnemann, F; Preston, CA; Siemens, DH | 1 |
| Staswick, PE; Tiryaki, I | 1 |
| Kolla, VA; Raghavendra, AS; Suhita, D | 1 |
| Hahn, EJ; Murthy, HN; Paek, KY; Zhong, JJ | 1 |
| Kong, Z; Ma, ZQ; Wang, J; Wu, K | 1 |
| Liang, J; Lin, J; Shen, C; Wu, L; Zhou, M | 1 |
| Biswas, KK; Fujiwara, M; Fukao, Y; Kawai-Yamada, M; Nakasone, A; Narumi, I; Oono, Y; Rahman, A; Uchimiya, H | 1 |
| Berkowitz, O; Böttcher, C; Cheng, Y; Düchting, P; Hentrich, M; Masle, J; Medina, J; Pollmann, S; Zhao, Y | 1 |
| Bais, HP; Iuchi, S; Kobayashi, M; Kobayashi, Y; Koyama, H; Lakshmanan, V; Sugimoto, M | 1 |
| Chen, F; Li, C; Zhang, Y | 1 |
| Kędziora, I; Kikowska, M; Krawczyk, A; Thiem, B | 1 |
| Liu, CY; Ni, QD; Wang, P; Wu, QS; Zhang, DJ; Zou, YN | 1 |
| Altamura, MM; D'Angeli, S; Della Rovere, F; Falasca, G; Fattorini, L; Veloccia, A | 1 |
| Anwar, S; Bashir, W; Hussain, I; Xie, F; Zhao, Q | 1 |
| Gong, C; He, X; Liu, X; Pan, C; Wang, Y; Xu, L; Yu, Y | 1 |
| Ayyoub, A; Li, S; Mao, J; Shao, Y; Tahir, MM; Wu, T; Xie, L; Xing, L; Zhang, D; Zhang, X | 1 |
1 review(s) available for indoleacetic acid and methyl jasmonate
| Article | Year |
|---|---|
Large scale culture of ginseng adventitious roots for production of ginsenosides.
Topics: Acetates; Bioreactors; Cyclopentanes; Ginsenosides; Indoleacetic Acids; Oxylipins; Panax; Plant Cells; Plant Growth Regulators; Plant Roots; Plants, Medicinal; Republic of Korea; Tissue Culture Techniques | 2009 |
15 other study(ies) available for indoleacetic acid and methyl jasmonate
| Article | Year |
|---|---|
Herbivore-induced ethylene suppresses a direct defense but not a putative indirect defense against an adapted herbivore.
Topics: Acetates; Analysis of Variance; Animals; Cyclopentanes; Cyclopropanes; Ethylenes; Indoleacetic Acids; Manduca; Nicotiana; Nicotine; Organophosphorus Compounds; Oxylipins; Plant Growth Regulators; Plant Leaves; Plant Roots; Plants, Toxic; Salicylic Acid | 2000 |
An Arabidopsis mutant defective in jasmonate response is allelic to the auxin-signaling mutant axr1.
Topics: Abscisic Acid; Acetates; Adenine; Alleles; Amino Acids, Cyclic; Arabidopsis; Arabidopsis Proteins; Benzyl Compounds; Brassinosteroids; Cholestanols; Cyclopentanes; Gene Expression Regulation, Plant; Genetic Complementation Test; Germination; Growth Substances; Indoleacetic Acids; Kinetin; Mutation; Nucleotidyltransferases; Oxylipins; Plant Growth Regulators; Plant Roots; Purines; Pythium; Seeds; Signal Transduction; Steroids, Heterocyclic | 2002 |
Marked changes in volume of mesophyll protoplasts of pea (Pisum sativum) on exposure to growth hormones.
Topics: Abscisic Acid; Acetates; Cyclopentanes; Gibberellins; Indoleacetic Acids; Oxylipins; Pisum sativum; Protoplasts; Time Factors | 2004 |
Characterization of a single recessive yield trait mutant with elevated endogenous ABA concentration and deformed grains, spikelets and leaves.
Topics: Abscisic Acid; Acetates; Cyclopentanes; Gene Expression Regulation, Plant; Genes, Plant; Genes, Recessive; Germination; Indoleacetic Acids; Isopentenyladenosine; Mutation; Oxylipins; Phenotype; Plant Leaves; Plants, Genetically Modified; Seeds; Triticum | 2011 |
Expression analysis and functional characterization of a novel cold-responsive gene CbCOR15a from Capsella bursa-pastoris.
Topics: Abscisic Acid; Acetates; Biological Assay; Capsella; Cloning, Molecular; Cold Temperature; Cyclopentanes; Databases, Genetic; Gene Expression Regulation, Plant; Genes, Plant; Glucuronidase; Indoleacetic Acids; Molecular Sequence Data; Nicotiana; Nucleotide Motifs; Oxylipins; Phenotype; Plant Proteins; Plants, Genetically Modified; Promoter Regions, Genetic; Real-Time Polymerase Chain Reaction; RNA, Messenger; Transformation, Genetic | 2012 |
SMALL ACIDIC PROTEIN1 acts with RUB modification components, the COP9 signalosome, and AXR1 to regulate growth and development of Arabidopsis.
Topics: 2,4-Dichlorophenoxyacetic Acid; Acetates; Arabidopsis; Arabidopsis Proteins; Caulimovirus; Cyclopentanes; Gene Expression Regulation, Plant; Genetic Complementation Test; Glutathione Transferase; Green Fluorescent Proteins; Indoleacetic Acids; Mutation; Oxylipins; Phenotype; Plant Epidermis; Plant Roots; Plants, Genetically Modified; Promoter Regions, Genetic; Protein Interaction Mapping; RNA Interference; Seeds; Signal Transduction; Ubiquitins | 2012 |
The jasmonic acid signaling pathway is linked to auxin homeostasis through the modulation of YUCCA8 and YUCCA9 gene expression.
Topics: Acetates; Arabidopsis; Arabidopsis Proteins; Cotyledon; Cyclopentanes; Gene Expression Regulation, Plant; Gene Knockout Techniques; Homeostasis; Hypocotyl; Indoleacetic Acids; Mixed Function Oxygenases; Mutation; Oxygenases; Oxylipins; Phenotype; Plant Components, Aerial; Plant Growth Regulators; Plant Roots; Plants, Genetically Modified; Signal Transduction | 2013 |
Characterization of the complex regulation of AtALMT1 expression in response to phytohormones and other inducers.
Topics: Abscisic Acid; Acetates; Adaptation, Physiological; Arabidopsis; Arabidopsis Proteins; ATP-Binding Cassette Transporters; Cyclopentanes; Gene Expression Regulation, Plant; Hydrogen Peroxide; Indoleacetic Acids; Macrolides; Mutation; Organic Anion Transporters; Oxylipins; Plant Growth Regulators; Plant Roots; Plants, Genetically Modified; Promoter Regions, Genetic; Regulatory Sequences, Nucleic Acid; Salicylic Acid; Signal Transduction | 2013 |
GA3 and other signal regulators (MeJA and IAA) improve xanthumin biosynthesis in different manners in Xanthium strumarium L.
Topics: Acetates; Cyclopentanes; Furans; Gene Expression Regulation, Plant; Gibberellins; Humans; Indoleacetic Acids; Medicine, Traditional; Oxylipins; Plant Extracts; Plant Growth Regulators; Plant Leaves; Xanthium | 2014 |
Methyl jasmonate, yeast extract and sucrose stimulate phenolic acids accumulation in Eryngium planum L. shoot cultures.
Topics: Acetates; Benzyl Compounds; Biomass; Biotechnology; Caffeic Acids; Cell Culture Techniques; Chlorogenic Acid; Cinnamates; Culture Media; Cyclopentanes; Depsides; Eryngium; Indoleacetic Acids; Kinetin; Oxylipins; Plant Shoots; Plants, Medicinal; Purines; Rosmarinic Acid; Sucrose; Yeasts | 2015 |
Mycorrhizal trifoliate orange has greater root adaptation of morphology and phytohormones in response to drought stress.
Topics: Acetates; Adaptation, Physiological; Calmodulin; Cyclopentanes; Droughts; Glomeromycota; Indoleacetic Acids; Mycorrhizae; Nitric Oxide; Oxylipins; Plant Growth Regulators; Plant Roots; Poncirus | 2017 |
Indole-3-butyric acid promotes adventitious rooting in Arabidopsis thaliana thin cell layers by conversion into indole-3-acetic acid and stimulation of anthranilate synthase activity.
Topics: Acetates; Anthranilate Synthase; Arabidopsis; Arabidopsis Proteins; Cyclopentanes; Cytokinins; Indoleacetic Acids; Indoles; Membrane Transport Proteins; Nitric Oxide; Oxylipins; Plant Roots; Tissue Culture Techniques | 2017 |
Interactive effect of drought and cadmium stress on soybean root morphology and gene expression.
Topics: Acetates; Cadmium; Cyclopentanes; Droughts; Gene Expression Regulation, Plant; Genes, Plant; Gibberellins; Glycine max; Hydrogen Peroxide; Indoleacetic Acids; Oxidative Stress; Oxylipins; Plant Roots | 2019 |
Drought resistance of Camellia oleifera under drought stress: Changes in physiology and growth characteristics.
Topics: Abscisic Acid; Acclimatization; Acetates; Camellia; Cyclopentanes; Droughts; Indoleacetic Acids; Oxylipins; Plant Leaves; Plant Stomata; Stress, Physiological; Water | 2020 |
Transcriptome Analysis Reveals Multiple Genes and Complex Hormonal-Mediated Interactions with PEG during Adventitious Root Formation in Apple.
Topics: Abscisic Acid; Acetates; Cyclopentanes; Dehydration; Gene Expression Profiling; Gene Expression Regulation, Plant; Gibberellins; Indoleacetic Acids; Isopentenyladenosine; Malus; Oxylipins; Plant Proteins; Plant Roots; Polyethylene Glycols; Sequence Analysis, RNA | 2022 |